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Intrinsic Burst-Blinking Nanographenes for Super-Resolution Bioimaging.

Xingfu ZhuQiang ChenHao ZhaoQiqi Yangnull GoudappagoudaMárton GellériSandra RitzDavid Yuen Wah NgKaloian KoynovSapun H ParekhVenkatesh Kumar ChettyBasant Kumar ThakurChristoph CremerKatharina LandfesterKlaus MüllenMarco TerenzioMischa BonnAkimitsu NaritaXiaomin Liu
Published in: Journal of the American Chemical Society (2024)
Single-molecule localization microscopy (SMLM) is a powerful technique to achieve super-resolution imaging beyond the diffraction limit. Although various types of blinking fluorophores are currently considered for SMLM, intrinsic blinking fluorophores remain rare at the single-molecule level. Here, we report the synthesis of nanographene-based intrinsic burst-blinking fluorophores for highly versatile SMLM. We image amyloid fibrils in air and in various pH solutions without any additive and lysosome dynamics in live mammalian cells under physiological conditions. In addition, the single-molecule labeling of nascent proteins in primary sensory neurons was achieved with azide-functionalized nanographenes via click chemistry. SMLM imaging reveals higher local translation at axonal branching with unprecedented detail, while the size of translation foci remained similar throughout the entire network. These various results demonstrate the potential of nanographene-based fluorophores to drastically expand the applicability of super-resolution imaging.
Keyphrases
  • single molecule
  • living cells
  • high resolution
  • atomic force microscopy
  • spinal cord injury
  • high frequency
  • risk assessment
  • deep learning
  • fluorescence imaging
  • molecularly imprinted